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<![CDATA[Analisa Meningkatnya Rugi-Rugi Daya Akibat Jatuh Tegangan Pada Proses Transmisi 150 KV Maligi-Indoliberty ]]>
<![CDATA[M Haikal Ismawan]]>;
<![CDATA[Dian Budhi Santoso]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 6, No 2 (2021) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v6i2.690
<![CDATA[ Tariffs are one of the driving forces of the economy, so electrical energy providers should be more effective in presenting electrical energy so that the basic electricity tariffs can be cheaper, one way is to reduce power losses in the transmission process. power losses arise because the transmission conductor has resistance values, power losses can increase if the voltage in the transmission system decreases, in the case study taken at PT PLN (Persero) UPT Karawang Gardu Induk (GI) 150 KV maligi the direction of the conductor Indoliberty 150 KV transmission when the average load in one day is 18.85 MW and 10.01 MVAr there is a power loss of 7065.05 W in one day when the voltage is 150 KV, and power losses increase by 411.17 W when there is avoltage drop of 2.8766% from a voltage of 150 KV to 145.82 KV which increases the cost loss of Rp. 9838,396 per day.]]>
<![CDATA[Prototype Pagar Otomatis Berbasis Arduino Uno Dengan Sensor Ultrasonic Hc-SR04 ]]>
<![CDATA[Imam Rama Muttaqin]]>;
<![CDATA[Dian Budhi Santoso]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 6, No 2 (2021) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v6i2.695
<![CDATA[The process of opening and closing the fence manually is less effective, forexample, residents of the house have to go down and open the gate manually by pulling or pushing it by hand, whereas for certain conditions, such as when itrains, opening and closing the fence manually will make it difficult. . Thepurpose of this paper is to increase the efficiency and effectiveness of the gateopening and closing process, where the process of opening and closing the fence can be done practically by using a DC motor connected to an Arduino Uno and an ultrasonic sensor HC-SR04. The process of opening and closing the door will be faster because the driver does not need to push open the fence or close the fence.]]>
<![CDATA[Visual Inspection dan Pengujian Tahanan Isolasi Pemutus Tenaga (PMT) Bay 150 KV Kopel ]]>
<![CDATA[Nur Afifah]]>;
<![CDATA[Ulinnuha Latifa]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 6, No 2 (2021) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v6i2.691
<![CDATA[Electrical energy is a primary need to supply all aspects of community needs andactivities for electricity. For this reason, maintenance is carried out to improve efficiency, quality, and distribution of electrical power. The PMT at thesubstations is used as a mechanical switch or as a circuit breaker. The methodused in this study was qualitative and quantitative to determine the presence of anomalies in electrical distribution. Based on in service/visual inspection, the condition of the equipment is good visually, and there is no anomalies were found. Testing at an insulation resistance, the rise and fall of the measurement results can be caused by several factors such as the wrong position of the measuring instrument, a dirty insulator body, or high humidity levels.]]>
<![CDATA[Perbaikan Tegangan Pada Jaringan Distribusi 20 Kv Melalui Penempatan Pembangkit Tersebar Berbasis Particle Swarm Optimization ]]>
<![CDATA[Yuli Asmi Rahman]]>;
<![CDATA[Sitti Nuradha Wati S]]>;
<![CDATA[Ratih Mar’atus Shalihah]]>;
<![CDATA[Irwan Mahmudi]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.815
<![CDATA[Voltage losses are problems that often occur in distribution systems, resulting in voltage drops to reduce the electrical power supplied to consumers. The allowable stress drop in the distribution is +5% and -10%. One way to overcome this is to place scattered power plants into account the given location and capacity (MW and MVar). In this study, optimization of generator placement using an effective method is Particle Swarm Optimization (PSO). PSO is an algorithm that implements problem understanding. The sequence of news generators is carried out by directing the selection of Gbest, which has a minimum voltage drop value by increasing the number of particles. Initial simulation using a power flow study run via Matlab and ETAP. The objective function of this optimization process is drop voltage minimization with contraint function is the power loss of each bus. The final simulation found the best generator locations on buses 7, 10, and 13. After optimization, the voltage increase was obtained by 4.05%, 9.05%, and 10.15% on each bus.]]>
<![CDATA[Perancangan Mobil Remot Kontrol Arduino dengan Bluetooth Via Android ]]>
<![CDATA[Ira Wati]]>;
<![CDATA[Sultan Achmed]]>;
<![CDATA[Titus Y. Agung]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.772
<![CDATA[The development of science and technology in today's world is very rapid, technological progress is something that cannot be avoided in this life because technological progress will run in accordance with scientific advances. The concept behind the manufacture is the development of an unmanned vehicle control system or commonly called a drone, a vehicle that can be operated without a crew and controlled remotely using Bluetooth installed on a smartphone. Mobile Robot is a robot construction whose characteristic is that it has an actuator in the form of a wheel to move the entire robot body, so that the robot can move positions from one point to another. This Mobile Robot is designed to move using an Android Smartphone controller that has applications that are suitable for robot movement. This robot uses Arduino Uno as a Bluetooth robot control system, the module for the tool made this time uses a Bluetooth module as a data receiver sent via an android smartphone which will then be processed by Arduino and then forwarded to the L298N motor driver which will provide output to move the DC motor according to the command provided wirelessly. The method used is an experimental method, the research carried out will focus on communication between Smartphone devices and the Arduino Uno microcontroller via Bluetooth to control robotic devices. In its implementation it can be applied to reach locations that are difficult or dangerous enough for humans to enter, so that with technology like this it will make it easier for humans to reach these areas without having to enter the location but only by controlling the device remotely.Keywords: Adruino Microcontroller, L298N DC Motor, Bluetooth, Smartphone.]]>
<![CDATA[Implementasi Penyiraman Otomatis dengan Sensor Gy-302 dan Yl-69 pada Alat Penyiram Tanaman ]]>
<![CDATA[Muhammad Fadhel Satria Munandar]]>;
<![CDATA[Lela Nurpulaela]]>;
<![CDATA[Insani Abdi Bangsa]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.750
<![CDATA[Perkembangan pada zaman ini semakin meningkat, manusia mengharapkan sebuah alat atau teknologi yang dapat membantu pekerjaan manusia, sehingga teknologi menjadi kebutuhan manusia. Alat penyiram tanaman otomatis bertujuan untuk menggantikan penyiraman manual menjadi otomatis sesuai waktu yang diinginkan oleh pengguna, adapun manfaat yang didapatkan dari alat ini adalah dapat mempermudah pekerjaan manusia dalam penyiraman. Alat ini menggunakan RTC (Real Time Clock) DS3231 yang berfungsi mengatur waktu yang diinginkan untuk melakukan penyiraman, sensor soil moisture yang berfungsi mendeteksi tingkat kelembaban tanah, sensor cahaya GY-302 yang berfungsi mengukur tingkat intensitas cahaya matahari lalu mengirim perintah kepada Arduino Nano untuk menghidupkan relay agar pompa dapat menyiram air sesuai kebutuhan tanah secara otomatis tanpa perlu melakukan penyiraman secara manual. Kata Kunci: Arduino Nano, RTC DS3231, Sensor Soil Moisture, Sensor GY-302]]>
<![CDATA[Pengaplikasian Sistem IOT Pada Alat Penyiram Tanaman Otomatis Berbasis Arduino Nano ]]>
<![CDATA[Mohammad Yusuf Ridwan]]>;
<![CDATA[Lela Nurpulaela]]>;
<![CDATA[Insani Abdi Bangsa]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.766
<![CDATA[Tanaman merupakan makhluk hidup yang dapat tumbuh dan berkembang tergantung pada perawatan dan penyiramannya, pada umumnya penyiraman tanaman dilakukan dengan cara manual, akan tetapi petani tidak punya cukup waktu untuk menyiram tanaman serta kurang mengetahui berapa banyak air yang dibutuhkan oleh tanaman, seiring dengan berkembangnya zaman pemanfaatan teknologi otomatis sudah diterapkan dalam berbagai jenis kegiatan manusia oleh karena itu dibuatlah sistem penyiraman tanaman otomatis untuk mempermudah pekerjaan petani tanpa mengganggu akrivitas lainnya, alat penyiram otomatis dapat dikembangkan dengan memanfaatkan sistem IOT, pembuatan alat penyiram tanaman ini dapat memonitoring tanaman secara merata dan dapat mengatur penyiraman tanaman hanya menggunakan smartphone yang dapat dikoneksikan ke beberapa sistem di alat penyiram tanaman, sepertI kelembaban tanah (soil moisture sensor YL-39) guna memantau jumlah kadar air dan intensitas cahaya (ligt intensity sensor GY-302) guna mengontrol pencahayaan yang cukup pada tanaman, tombol on dan off di layar smartphone untuk menyalakan dan menghidupkan alat penyiraman tanpa harus datang secara langsung dan tanpa batasan jarak, sehingga petani dapat mengurangi pekerjaan dan mendapatkan waktu yang efesien.]]>
<![CDATA[Analisis Peran dan Fungsi Dvor (Doppler Very High Frequency Omni-Directional Range) Sebagai Alat Bantu Navigasi yang Memberikan Informasi Azimuth ke Pesawat ]]>
<![CDATA[Al Fahmi Hidayatullah]]>;
<![CDATA[Arnisa Stefanie]]>;
<![CDATA[Rahmat Hidayat]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.754
<![CDATA[Navigasi udara merupakan kegiatan untuk memandu atau mengarahkan transportasi udara dari satu tempat ke tempat yang lain agar tidak keluar dari jalurnya. peralatan navigasi yang diperlukan dan memiliki kemampuan yang tidak terbatas (kontinu) untuk memandu pesawat menuju bandara adalah DVOR. DVOR merupakan alat bantu atau fasilitas navigasi penerbangan yang mampu memancarkan sinyal radio gabungan, termasuk kode morse dan data yang dapat memungkinkan peralatan receiver pada pesawat memeproleh magnetic bearing dari station ke pesawat terbang yang menggunakan frekuensi karena adanya efek doppler. DVOR ini beroperasi dengan maksud untuk memberikan informasi azimuth atau arah pesawat terhadap ground station kepada penerbang.]]>
<![CDATA[Alarm Pengendali Asap Pada Ruangan Bebas Asap Berbasis Mikrokontroler Arduino ]]>
<![CDATA[Winarno Fadjar Bastari]]>;
<![CDATA[Akhmad Solikin]]>;
<![CDATA[Widodo Widodo]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.818
<![CDATA[Smoke is air pollution that is very dangerous for human health. Therefore, in this study the authors designed and modeled a fan speed controller using a smoke sensor based on an Arduino microcontroller. In addition, smoke control alarms can also be used for monitoring in smoke-free rooms in order to prevent and at the same time provide a deterrent effect on people who smoke in places where smoking is prohibited. The method used is to process the data detected by the MQ2 smoke sensor, then display the amount or level of smoke in the room and its condition on the LCD/monitor. The comparison of the values on the sensor will be processed with the Arduino and the output of the Arduino will be input coding on the Arduino IDE software to control the fan speed performance as a response to exhaust air in the ventilation area of the room. The microcontroller process is in the program as a controller of all components, then coding will control all components according to the coding ordered in the microcontroller and voltage controller at the smoke sensor input and LCD and fan output. The results obtained from this research project are able to detect the state of the air in a smoke-free room from smoke and CO pollution from 0 ppm to = 256 ppm and this pollution can be reduced by adjusting the fan speed as room air ventilation to avoid the deposition of smoke in a smoke-free room. which is dangerous. So that the air in the room becomes cleaner and safer for health.]]>
<![CDATA[Analisis Peran Glide Path dalam Instrument Landing System (Ils) untuk Proses Pendaratan Pesawat ]]>
<![CDATA[Deny Kurniawan]]>;
<![CDATA[Arnisa Stefanie]]>;
<![CDATA[Rahmat Hidayat]]>
<![CDATA[ Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022) ]]>
Publisher : <![CDATA[Universitas Islam Lamongan ]]>
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DOI: 10.30736/je-unisla.v7i1.755
<![CDATA[Sebagai salah satu contoh peralatan alat bantu navigasi yang disebut dengan Instrument Landing System (ILS) sebagai alat bantu pendaratan pesawat yang memberikan informasi pada penerbangan dalam melakukan proses pendaratan pesawat. ILS memancarkan sinyal panduan berupa peralatan localizer pada saat pesawat berada di jarak 25 Nauctical Miles untuk menunjukan posisi pesawat pada Center Line Runaway, kemudian saat pesawat berada pada jarak 10 Nauctical Miles peralatan Glide Path akan memancarkan sinyal panduan informasi sudut pendaratan yaitu 3° dari permukaan tanah atau Center Line Runaway. Kemudian dengan pancaran informasi tersebut memancarkan frekuensi 90 dan 150 Hz. Peralatan Instrument Landing System (ILS) adalah salah satu peralatan radio navigasi penerbangan yang berfungsi sebagai alat bantu pendaratan yaitu berupa radio navigasi penerbangan yang berfungsi sebagai alat bantu pendaratan yaitu berupa radio pemancar yang dilengkapi dengan monitor.]]>
